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Light- and electron-microscopic study of the distribution of axons containing substance P and the localization of neurokinin-1 receptor in bone (1998)

Goto, Tetsuya ; Yamaza, Takayoshi ; Kido, Mizuho A. ; [et al.]

Springer

Cell & tissue research 293 (1998), S. 87-93

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ISSN: 1432-0878

Keywords: Key words Osteoclasts ; Osteoblasts ; Osteocytes ; Bone ; Substance P (SP) ; Neurokinin-1 receptor (NK1-R) ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Substance P (SP) is a neuropeptide that is released from axons of sensory neurons and causes signal transduction through the activation of the neurokinin-1 receptor (NK1-R). The present study demonstrates the distribution of SP-like-immunoreactive (SP-LI) axons and the localization of NK1-Rs in rat bone tissue using the avidin-biotin-peroxidase complex method. Axons with SP-LI were commonly found near the trabecular bone in the temporal bone marrow, but they were only sparsely distributed in the mandible, femur, and tibia. Immunoreactivity for NK1-Rs was found on the plasma membrane and in the cytoplasm of the osteoclasts. In the osteoblasts and osteocytes, a small number of weak, punctate immunoreactive products of NK1-Rs were distributed close to the plasma membrane. At the electron-microscopic level, immunoreactivity for NK1-R was distributed mainly in the whole cytoplasm, except for the clear zone of the osteoclasts, and in pit-like structures along the plasma membrane. The NK1-R-immunoreactive structures in the cytoplasm were divided into two types of organelles, consisting of vesicular and vacuolar structures (probably transport vesicles and early endosomes). In the osteoblasts and osteocytes, the number of NK1-R-positive vesicular structures was fewer than in the osteoclasts. These results thus suggest that SP secreted by the sensory axons could directly modulate bone metabolism via NK1-Rs.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004410051100

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Immunocytochemical localization of substance P neurokinin-1 receptors in rat gingival tissue (1999)

Kido, Mizuho A. ; Yamaza, Takayoshi ; Goto, Tetsuya ; [et al.]

Springer

Cell & tissue research 297 (1999), S. 213-222

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ISSN: 1432-0878

Keywords: Key words Neurokinin-1 receptor ; Substance P ; Junctional epithelium ; Neutrophil ; Endosomes ; Immunoelectron microscopy ; Rat (Wistar)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The distributions of substance P (SP) and the neurokinin-1 receptor (NK1-R), the receptor preferentially activated by SP, were examined in rat gingiva by immunocytochemical methods with light and electron microscopy. SP-immunoreactive nerve fibers were located preferentially in the junctional epithelium (JE) but few in the other oral and oral sulcular epithelia. NK1-R immunoreactivity was found in the endothelial cells (capillaries and postcapillary venules underlying the JE). NK1-R-labeled and -unlabeled unmyelinated nerve fibers were located close to the blood vessels and partially or completely covered by a Schwann cell sheath. In the JE, labeled naked axons without Schwann cell sheaths were observed. Neutrophils and macrophages in the connective tissue underlying the JE and in the JE were also labeled with NK1-R. Furthermore, NK1-R was found in the JE cells. Basically, immunoreaction products for NK1-R were found throughout various cells (endothelial cells, neutrophils, and JE cells) at invaginations of the plasma membrane and in vesicular and granular structures that are probably endosomes and are found close to both the plasma membrane and the nucleus. This is a first report, demonstrating the presence of NK1-R in the gingival tissue in the normal nonstimulated condition. Furthermore, it is thought that SP may modulate the permeability of blood vessels beneath the JE, the production of antimicrobial agents in neutrophils, and the proliferation and endocytotic ability of JE cells through NK1-R.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004410051349

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Bone-bonding behavior of plasma-sprayed coatings of BioglassR, AW-glass ceramic, and tricalcium phosphate on titanium alloy (1996)

Kitsugi, Toshiaki ; Nakamura, Takashi ; Oka, Masanori ; [et al.]

Hoboken, NJ : Wiley-Blackwell

Journal of Biomedical Materials Research 30 (1996), S. 261-269

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ISSN: 0021-9304

Keywords: Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine , Technology

Notes: The bone-bonding behavior of three kinds of bioactive ceramics coated on titanium alloy by the plasma-spray technique was investigated. Titanium alloy (Ti-6A1-4V) coated with BioglassR (45S5), apatite-wollastonite containing glass ceramic (AW), or β-tricalcium phosphate (TCP) was prepared, and rectangular specimens were implanted into the tibial bones of mature male rabbits, which were sacrificed 8 or 24 weeks after implantation. The tibiae containing the implants were dissected out and subjected to detachment tests to measure the failure load. The bone-implant interface was investigated by Giemsa surface staining, contact microradiography, and scanning electron microscopy-electron probe microanalysis (SEM-EPMA).Eight weeks after implantation, the failure loads for implants coated with BioglassR, AW, and TCP were 1.04 ± 0.94, 2.03 ± 1.17, and 3.91 ± 1.51 kg, respectively, and 24 weeks after implantation, the respective failure loads were 2.72 ± 1.33, 2.39 ± 1.30, and 4.23 ± 1.34 kg. Failure loads of AW- and TCP-coated implants did not increase significantly with time. After the detachment test, breakage of the coating layer was observed. Bioactive ceramics can act as stimulants that induce bonding between bone and metal implants. However, failure load of metal implants coated with the bioactive ceramics was lower than that of bulk AW or TCP. It appears impossible to obtain a higher failure load using a bioactive-ceramic coating on titanium alloy.Histologically, the coating layer was found to become detached from the metal implant and the bone tissue bonded to the coating layer. SEM-EPMA observation revealed breakage of the coating layer, although bonding between bone and the coating layer was evident. A Ca-P-rich layer was observed at the interface between bone and the AW coating, and a Ca-P-rich and a Si-rich layer were observed at the interface between bone and the BioglassR coating.For clinical application, it would seem better to use coated metal implants for short-term implantation. However, there is a possibility of breakage of the coating layer because of both dissolution of the bioactive ceramic and mechanical weakness at the interface between the coating layer and the metal implant. © 1996 John Wiley & Sons, Inc.

Additional Material: 5 Ill.

Type of Medium: Electronic Resource

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